循环链表的实现

#include

using namespace std;

struct LinkNode {

int data;

LinkNode* next;

};

void InitLinkList_L(LinkNode*& L) {

L = new LinkNode;

L->next = L;

}

int IsEmpty(LinkNode* L) {

if (L->next == L)

return 1;

else

return 0;

}

void Print(LinkNode* L) {

LinkNode* p;

p = L->next;

while (p != L) {

cout << p->data;

p = p->next;

if (p != L)

cout << ' ';

}

cout << endl;

}

int Push_Head(LinkNode*& L, int x) {

LinkNode* p = new LinkNode;

if (p == 0) return 0;

p->data = x;

p->next = L->next;

L->next = p;

return 1;

}

int Push_Back(LinkNode*& L, int x) {

LinkNode* p = new LinkNode, * q;

if (p == 0) return 0;

p->data = x;

p->next = L;

q = L->next;

while (q->next != L) {

q = q->next;

}

q->next = p;

return 1;

}

int Length(LinkNode* L) {

LinkNode* p;

int count = 0;

p = L->next;

while (p != L) {

p = p->next;

count++;

}

return count;

}

LinkNode* Find(LinkNode* L, int i) {

if (i<0 || i>Length(L)) return 0;

LinkNode* p = L;

while (i--) {

p = p->next;

}

return p;

}

void Insert(LinkNode*& L, int i, int x) {

if (i<0 || i>Length(L) + 1) return;

if (i == Length(L) + 1) {

Push_Back(L, x);

}

else {

LinkNode* p = Find(L, i - 1); //用找到的位置代替头指针的位置，所以要找到i前面那个元素的位置

Push_Head(p, x);

}

}

void Pop_LinkHead(LinkNode*& L) { //删除头结点

LinkNode* p;

p = L->next;

L = p;

delete p;

}

void Pop_Head(LinkNode*& L) {

LinkNode* p = L->next;

L->next = p->next;

delete p;

}

void Pop_Back(LinkNode*& L) {

LinkNode* p = L->next, * q = p->next;

while (q->next != L) {

p = q;

q = q->next;

}

p->next = L;

delete q;

}

void Delete(LinkNode* L,int i) {

if (i<0 || i>Length(L)) return;

LinkNode* p = Find(L, i - 1);

Pop_Head(p);

}

void Union_Link(LinkNode*& LA, LinkNode*& LB) { //合并LA,LB存于LA中

LinkNode* TA = LA;

while (TA->next!=LA) {

TA = TA->next;

}

LinkNode* TB = LB;

while (TB->next!=LB) {

TB = TB->next;

}

TA->next = LB->next;

TB->next = LA;

delete LB;

}

int main() {

LinkNode* LA, * LB;

InitLinkList_L(LA);

InitLinkList_L(LB);

Push_Back(LA, 1);

Push_Back(LA, 3);

Push_Back(LA, 5);

Push_Back(LA, 7);

Push_Back(LA, 9);

Push_Back(LB, 2);

Push_Back(LB, 4);

Push_Back(LB, 6);

Push_Back(LB, 8);

Push_Back(LB, 10);

Print(LA);

Print(LB);

Union_Link(LA, LB);

Print(LA);

}

/*

int main() {

LinkNode* L;

InitLinkList_L(L);

Push_Head(L, 1);

Push_Head(L, 2);

Push_Head(L, 3);

Push_Head(L, 4);

Push_Head(L, 5);

Push_Back(L, 11);

Push_Back(L, 12);

Push_Back(L, 13);

Push_Back(L, 14);

Push_Back(L, 15);

Insert(L, 11, 100);

Print(L);

Delete(L, 2);

Print(L);

Delete(L, 10);

Print(L);

Pop_Back(L);

Print(L);

Pop_Head(L);

Print(L);

Insert(L, 5, 14);

Print(L);

Insert(L, 3, 12);

Print(L);

cout << Length(L) << endl;

cout << Find(L, 8) << endl << Find(L, 8)->data;

return 0;

}

*/